对等温和降温连续搅拌下60Si2Mn初生凝固组织形成与演变规律进行了实验研究.结果表明:等温和降温两种搅拌工艺可使初生奥氏体组织枝晶形态演变球化.等温温度越高,初生组球化效果越好;采用较长的连续搅拌时间,初生相可得到充分球化;连续降温搅拌到一定固相分数时晶粒尺寸变化较小;采用降温连续搅拌工艺可获得较小的球形晶粒尺寸.电磁搅拌改变了初生晶粒生核或生长的热力学和动力学条件,从而使初生相的界面形态经历了由球形失稳后转变为枝晶,又经过抑制、熔断、重熔、粗化、聚集而转变为近球形的演变过程.抑制和粗化是促使晶粒界面形态发生演变的主要动力学因素.
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